JP2005038068A - System for preventing illicit copying of software - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an illicit software copy prevention system for preventing illicit installing and/or executing of software at low cost. <P>SOLUTION: The illicit software copy prevention system 1 registers software with an authentication number for identifying the software. An electronic device body 2 is provided with an interface to which key modules 3a-3n sold in pairs with the software are connected. Authentication numbers that match the authentication numbers of the paired software are written in the EEPROMs 5a-5n of the key modules 3a-3n at a predetermined manufacturing stage of the key modules 3a-3n. Installing and executing the software is permitted only when the authentication numbers written in the EEPROMs 5a-5n of the key modules 3a-3n match the authentication numbers of the software. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a software illegal copy prevention system, and more particularly, to a software illegal copy prevention system that prevents illegal installation or / and illegal execution of software at a low cost.
[0002]
[Prior art]
[Patent Document 1]
JP 2002-55728 A
For electronic devices such as computers to which function expansion software (application software, driver software, etc., hereinafter simply referred to as software) can be added, additional software is generally a floppy disk (registered trademark) or CD-ROM ( It is sold and supplied in a state of being recorded on a storage medium such as Compact Disc Read Only Memory) or in a state of transmitting an electronic file through a communication network such as the Internet.
[0003]
Such a software supply method can supply software very easily and inexpensively, but has a problem that it cannot properly prevent unauthorized use (unauthorized use) and illegal copying.
[0004]
Therefore, various measures for preventing illegal copying have been taken by software providers.
[0005]
For example, when a different character string (hereinafter referred to as an authentication number) is assigned to each storage medium on which the software is recorded, and the authentication number is not correctly input when the authentication number is requested during installation. A method of canceling software installation or stopping software operation is used.
[0006]
However, this method needs to assign a different authentication number to each storage medium even if it is the same software, so the same thing cannot be mass-produced at the time of production of the storage medium, and production cost is high. There was a problem. In addition, if a person who attempts illegal copying obtains a set of storage media and an authentication number that matches the storage media, the storage media can be made indefinitely the same duplicate media with simple equipment such as a personal computer. If the authorized authentication number obtained earlier is used again, there is a problem that the copy media can be used and illegal copy prevention cannot be performed appropriately.
[0007]
In addition, if the software is restricted to operate only for a limited trial period or is restricted so that only limited functions are available, the user who wishes to remove this restriction shall notify the software provider. There is a method of canceling the restriction by performing registration, obtaining an authentication number or electronic key, and downloading the authentication number or electronic key to software.
[0008]
However, this method requires the installation and management of a software registration window, which is costly and allows the software to be copied and used illegally by rotating the authentication number or copying the electronic key, thus preventing illegal copying. There was a problem that it could not be done properly.
[0009]
Further, conventionally, the following method has also been used as a measure for preventing illegal copying of software.
[0010]
That is, when selling and supplying software, a key module (hereinafter referred to as a key module) composed of hardware is provided to the user as a set. The same authentication number as the set software is assigned to the key module. Furthermore, the key module can be attached to the electronic device body that operates the software, and the authentication number can be read from the key module. A mechanism is provided. In this method, the software can be used only when the authentication number of the software matches the authentication number read from the key module.
[0011]
If this method is used, even if the software itself (including storage media) is illegally copied, the software will not work unless the key module is also copied and manufactured, and the key module can be copied easily and inexpensively. Therefore, illegal copying and unauthorized use can be substantially prevented.
[0012]
Further, conventionally, a software copy protection system in which verification of whether or not the act is valid is performed when software is installed on a computer or a program is started on the computer, and the software is selected from a plurality of distribution versions. Specific information of the user computer system that can be acquired by the software when distributing the software, using distribution version selection means, and any one of the plurality of distribution versions. The distribution version of the software selected by the distribution version selection means is distributed to the user, and the installation or execution of the software is fixed when the software is installed or executed. Whether or not the information corresponds to the distribution version possessed by the software is determined by the unauthorized copy determination means, and when the specific information corresponds to the distribution version, the installation or execution of the software is continued. A copy protection system has been proposed that stops installation or execution of the software when the specific information does not correspond to the distribution version (see Patent Document 1).
[0013]
That is, this prior art specifies the distribution version of the software to be distributed based on the unique information of the user computer system, and guarantees the installation and execution of the software on the user computer, while installing the software on another computer. And prevent execution.
[0014]
[Problems to be solved by the invention]
However, such a conventional technique needs to be improved in order to prevent illegal installation and illegal execution of software at a low cost and appropriately.
[0015]
In other words, in the prior art that provides a user with a key module composed of software and hardware, a key having an authentication number that matches the authentication number assigned to each software. Since each module is required, the supply side must produce many types of key modules as a result. Conventionally, this key module has been manufactured in a state where the authentication number is stored. There is a problem that the cost of manufacturing and managing the key module is high.
[0016]
Further, in the prior art described in Patent Document 1, it is necessary to acquire in advance the unique information of the computer on which the software is installed, and to select the distribution version specified by the previously acquired unique information. In addition to the time and effort required for distribution, it may be difficult to obtain computer-specific information in advance, and it was necessary to improve the software to prevent illegal software installation and execution illegally.
[0017]
Therefore, the invention according to claim 1 identifies software in advance when installing software in an electronic device and / or permitting / disapproving execution of software already installed in the electronic device. The identification information to be registered is registered, an interface for connecting a key module distributed as a pair with the software is provided in the electronic device, a rewritable nonvolatile memory is provided in the key module, and the key module is manufactured. At a later predetermined stage, the identification information for permitting the installation or / and execution of the software is written to the nonvolatile memory with the identification information of the paired software, and the software is stored in the nonvolatile memory of the key module. The written identification information is paired with its own identification information. By permitting installation or / and execution only when the information is different information, the key module manufacturing process produces only one type of key module with no identification information registered, and also installs software. Even if the identification information for managing the execution is temporarily written, the identification information can be rewritten as necessary to reduce the production cost of the key module, and to ensure illegal and illegal software installation or An object of the present invention is to provide a software illegal copy prevention system capable of preventing execution.
[0018]
According to the second aspect of the present invention, the electronic device is provided with only one interface for connecting the key module, and the key module has an interface for connecting the interface of the electronic device and each key module. By daisy chaining as many key modules as the number of software installed in the electronic device in sequence, the electronic device is provided with only one interface, and as many key modules as the number of software to be installed are daisy-chained. The purpose is to provide a software piracy prevention system that can be connected in a chain so that necessary key modules can be used at the same time, and can prevent illegal installation or / and execution of software even more inexpensively and reliably. As That.
[0019]
According to a third aspect of the present invention, only one interface for connecting a key module is provided in an electronic device, a signal line for address assignment is provided in the interface, the key module is connected to the interface of the electronic device and each of the interfaces. A daisy chain connection with the key module is provided, and an interface including an address assignment signal line is provided.When an address is input from the address assignment signal line, the address is assigned to its own address. And adding means for adding the minimum address value to the input address and outputting it to the key module at the next stage through the address assignment signal line, and is installed in the electronic device As many key modules as software When the minimum address is output from the electronic device through the address assignment signal line after daisy chain connection, each daisy chain connected key module sets the address that is sequentially input as its own address. The addition means adds the minimum address value to the input address, outputs it to the next key module, and sequentially sets the address, so that the individual address of the key module is automatically set, and the address of the address due to an address setting error is set. In addition to preventing duplication, minimizing key modules by eliminating bit switches that manually set addresses, and preventing illegal installation or / and execution of software even more inexpensively and reliably. To provide a software anti-piracy system It is an object.
[0020]
According to the fourth aspect of the present invention, each key module is connected to a determination means for determining whether or not the set self address is the maximum address, and the key module at the next stage of the daisy chain connection interface. Switch means for cutting off the connection, and when the discriminating means discriminates that its own address is the maximum address, the switch means cuts off the connection with the key module at the next stage, so that the address is To automatically and reliably prevent duplication of addresses by setting addresses that have already been set after reaching the maximum, and to prevent illegal installation or / and execution of software even more inexpensively and reliably It aims to provide a software piracy prevention system that can be used.
[0021]
According to a fifth aspect of the present invention, a fitting receiving portion that is detachably fitted to the key module is formed in the electronic device, and the fitting portion that is fitted to the fitting receiving portion of the electronic device is fitted to each key module. And a fitting receiving portion to which the fitting portion of the key module of the next stage is detachably fitted, and the electronic device and each key module are connected to the fitting receiving portion. By forming connection terminals that are connected to each other by the daisy chain interface when the fitting part is fitted, it is possible to fit between the electronic device and the key module and the key module without using a cable or the like. To reduce the installation space required for the entire system, reduce the cost of cables, etc., and make the software illegal and / or smaller, more inexpensive and reliable And its object is to provide a software piracy prevention system can prevent the line.
[0022]
[Means for Solving the Problems]
The software illegal copy prevention system according to the first aspect of the present invention is a software illegal copy prevention system that installs software in an electronic device and / or permits / disallows execution of already installed software in the electronic device. In the software, identification information for identifying the software is registered in advance, and the electronic device includes an interface for connecting a key module distributed as a pair with the software, and the key module can be rewritten. A non-volatile memory, and at a predetermined stage after the key module is manufactured, identification information for permitting installation or / and execution of the software is written between the identification information of the paired software and the software But install or In the execution, the installation or / and execution is permitted only when the identification information written in the nonvolatile memory of the key module is the identification information paired with its own identification information. Has achieved.
[0023]
According to the above configuration, when software is installed on the electronic device and / or execution / permission of execution of the already installed software on the electronic device is performed, identification information for identifying the software is provided in advance in the software. An interface for connecting a key module that is registered and distributed as a pair with the software to the electronic device is provided, a rewritable nonvolatile memory is provided to the key module, and a predetermined stage after the key module is manufactured The identification information for permitting the installation or / and execution of the software is written in the nonvolatile memory between the identification information of the paired software, and the software is written in the nonvolatile memory of the key module. The identification information is the identification information that is paired with your own identification information. Since installation or / and execution is permitted only occasionally, in the key module manufacturing process, only one type of key module with no identification information registered is produced, and installation and execution of software are managed. Even after the identification information has been temporarily written, the identification information can be rewritten as necessary, so that the production cost of the key module can be reduced. Execution can be prevented.
[0024]
In this case, for example, as described in claim 2, the software illegal copy prevention system includes only one interface for connecting the key module to the electronic device, and the key module includes an interface of the electronic device. And an interface for daisy chain connection with each of the key modules, and as many key modules as the number of software installed in the electronic device are sequentially daisy chained.
[0025]
According to the above configuration, the electronic device is provided with only one interface for connecting the key module, and the key module is provided with an interface for daisy chain connection between the interface of the electronic device and each key module, As many key modules as the number of software installed in the electronic device are sequentially daisy-chained, so only one interface is provided in the electronic device, and as many key modules as the number of software to be installed are daisy-chained. Thus, necessary key modules can be used at the same time, and illegal installation or / and execution of software can be prevented even more inexpensively and reliably.
[0026]
Further, for example, the software illegal copy prevention system includes only one interface to which the electronic device connects the key module, and the interface includes a signal line for address assignment. The key module includes an interface including the address assignment signal line and daisy chain connection between the interface of the electronic device and each key module, and each key module includes: When an address is input from the address / assignment signal line, the address is set as its own address, and the minimum address value is added to the input address and the next stage through the address / assignment signal line. Adding means for outputting to the key module When the key modules corresponding to the number of software installed in the electronic device are sequentially daisy chained, and the minimum address is output from the electronic device through the address assignment signal line, the daisy chain is provided. Each connected key module sets the address that is sequentially input as its own address, and the addition means adds the minimum address value to the input address and outputs it to the next key module. An address may be set.
[0027]
According to the above configuration, the electronic device is provided with only one interface for connecting the key module, the address assignment signal line is provided for the interface, and the key module is connected to the interface of the electronic device and each key A daisy chain connection with the module and an interface including an address assignment signal line are provided. When an address is input from the address assignment signal line, the address is set as its own address. And adding means for adding the minimum address value to the input address and outputting it to the next key module through the address assignment signal line, and the number of software installed in the electronic device. Only key modules are daisy-chained sequentially When the minimum address is output from the electronic device through the address assignment signal line, each key module connected in daisy chain sets the sequentially input address as its own address. The addition means adds the minimum address value to the input address, outputs it to the next key module, and sequentially sets the address so that the individual address of the key module can be set automatically, due to an address setting error It is possible to prevent duplication of addresses, and to reduce the size of the key module by omitting the bit switch etc. for manually setting the address, and to illegally install software and / or more reliably and cheaper. Execution can be prevented.
[0028]
Further, for example, as described in claim 4, each key module includes a determination unit that determines whether the set self address is a maximum address, and a next stage of the daisy chain connection interface. Switching means for connecting / disconnecting to / from the key module, and when the determining means determines that the self address is a maximum address, The connection may be cut off.
[0029]
According to the above configuration, each key module is connected to or disconnected from the determination module for determining whether the set self address is the maximum address and the key module at the next stage of the daisy chain connection interface. Switch means for performing the operation, and if the discrimination means discriminates that its own address is the maximum address, the switch means cuts off the connection with the next key module, so that the address reaches the maximum. By setting an address that has already been set, it is possible to automatically and reliably prevent duplicate addresses, and to prevent illegal installation or / and execution of software even more inexpensively and reliably. Can do.
[0030]
In addition, for example, as described in claim 5, the electronic device is formed with a fitting receiving portion that is detachably fitted to the key module, and each key module is fitted to the electronic device. A fitting portion that is fitted to the receiving portion is formed, and a fitting receiving portion is formed to which the fitting portion of the key module of the next stage is detachably fitted. The key module may be formed with connection terminals that are connected to each other by the daisy chain connection interface when the fitting receiving portion and the fitting portion are fitted.
[0031]
According to the above configuration, a fitting receiving portion that is detachably fitted to the key module is formed in the electronic device, and a fitting portion that is fitted to the fitting receiving portion of the electronic device is formed in each key module. In addition, a fitting receiving portion to which the fitting portion of the key module in the next stage is detachably fitted is formed, and the electronic device and each key module are connected to the fitting receiving portion and the fitting. Since the connection terminals are connected to each other with the daisy chain interface when the joints are fitted together, the electronic device and the key module and the key module can be fitted and connected without using cables. In addition to reducing the required installation space for the entire system, the cost of cables, etc. can also be reduced, making the installation of software illegally more compact and cheaper. It is possible to prevent Le and / or execution.
[0032]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described in detail with reference to the accompanying drawings. The embodiments described below are preferred embodiments of the present invention, and thus various technically preferable limitations are given. However, the scope of the present invention is particularly limited in the following description. As long as there is no description which limits, it is not restricted to these aspects.
[0033]
FIG. 1 is a diagram showing a first embodiment of a software illegal copy prevention system according to the present invention. This embodiment corresponds to claim 1.
[0034]
FIG. 1 is a system configuration diagram of a main part of a software illegal copy prevention system 1 to which the first embodiment of the software illegal copy prevention system of the present invention is applied.
[0035]
In FIG. 1, a software illegal copy prevention system 1 includes an electronic device main body 2 in which software is installed and executed, and key modules 3a to 3n that are set together with the software. Is provided with an EEPROM (Electrically Erasable and Programmable ROM) control circuit 4.
[0036]
Each of the key modules 3a to 3n has a very simple configuration in which EEPROMs 5a to 5n, which are writable nonvolatile memories, are mounted. The EEPROMs 5a to 5n are paired with the key modules 3a to 3n. An authentication number (identification information) that permits installation and execution of software is registered, but this authentication number is not registered when the key modules 3a to 3n are manufactured, and the key modules 3a to 3n are all the same. It is manufactured as a hardware configuration, and an authentication number is written in the EEPROMs 5a to 5n by a predetermined electronic device at a certain time after manufacture.
[0037]
Each of the key modules 3a to 3n is sold and distributed as a unit with software, and at the stage of distribution, the authentication numbers are already registered in the EEPROMs 5a to 5n of the key modules 3a to 3n. In the software distributed as a pair with each of the key modules 3a to 3n, the same authentication number (identification information) as that of the key modules 3a to 3n is registered.
[0038]
The software paired with each of the key modules 3a to 3n is installed in the electronic device main body 2, and is connected to the electronic device main body 2 and the authentication number registered in the software at the time of this installation. Among the key modules 3a to 3n, when the key modules 3a to 3n having the EEPROMs 5a to 5n in which the authentication numbers matching the software authentication numbers are registered are connected, the installation is permitted, and Allow execution of software.
[0039]
The electronic device main body 2 includes a plurality of connection interface ports connected in parallel to the EEPROM control circuit 3, and the key modules 3a to 3n are detachably connected to the ports. The electronic device main body 2 uses a clock synchronous serial for connection between a connection interface with the key modules 3 a to 3 n and the EEPROM control circuit 3.
[0040]
The electronic device main body 2 reads the authentication numbers registered in the EEPROMs 5a to 5n of the key modules 3a to 3n via the EEPROM control circuit 3 by the installed software, and the software is based on the authentication numbers Control permission and disapproval of software installation and execution.
[0041]
Next, the operation of the present embodiment will be described. In the software illegal copy prevention system 1 according to the present embodiment, software is distributed as a pair with the key modules 3a to 3n, an authentication number is embedded in the software, and the software is paired with the software. In the key modules 3a to 3n, the same authentication numbers as the authentication numbers registered in the paired software are stored in the EEPROMs 5a to 5n at a predetermined stage after manufacture.
[0042]
When the software is purchased, the key modules 3a to 3n distributed as a pair with the software are attached to the ports for the key modules 3a to 3n of the electronic device body 2 in which the software is installed. When software installation operation is performed on the electronic device main body 2 with the key modules 3a to 3n mounted on the port, the software is mounted on the port via the EEPROM control circuit 3 of the electronic device main body 2. The authentication numbers of the EEPROMs 5a to 5n of the respective key modules 3a to 3n are read, and the authentication numbers of the read key modules 3a to 3n are the same as the authentication numbers registered in the software. To check.
[0043]
When the key module 3a-3n registered with the authentication number that matches the authentication number registered in the software is connected to the port, the software executes an installation process on the electronic device body 2, When the software is installed in the electronic device body 2 and the key modules 3a to 3n registered with the authentication number that matches the authentication number registered in the software are not connected to the port, the installation process is rejected. .
[0044]
Further, when the software installed in the electronic device main body 2 is requested to be executed in the electronic device main body 2, the EEPROMs 5 a to 5 n of the key modules 3 a to 3 n attached to the ports via the EEPROM control circuit 3. Then, it is checked whether there is an authentication number that matches the authentication number registered in the software among the read authentication numbers of the key modules 3a to 3n.
[0045]
When the key modules 3a to 3n having an authentication number that matches the authentication number registered in the software are connected to the port, the software permits the execution of the software and performs an operation process. When the key module 3a-3n registered with the authentication number that matches the authentication number registered in is not connected to the port, the execution is refused and the operation process is not performed.
[0046]
As described above, the software illegal copy prevention system 1 according to the present embodiment performs installation of software to the electronic device main body 2 and permission / non-permission of execution of the already installed software in the electronic device main body 2. In the software, an authentication number as identification information for identifying the software is registered in advance, and an interface for connecting the key modules 3a to 3n distributed as a pair with the software is provided in the electronic device body 2, and the key EEPROMs 5a to 5n, which are rewritable nonvolatile memories, are provided in the modules 3a to 3n, and the software is installed between the authentication numbers of the paired software at a predetermined stage after the manufacture of the key modules 3a to 3n. And the authentication numbers permitting the execution of the EEPROMs 5a to 5 Written to, software, only it has allowed the installation and running when key module 3a to 3n EEPROM5a～5n to being written verification number is an authentication ID to be authenticated numbers paired with self.
[0047]
Therefore, in the manufacturing process of the key modules 3a to 3n, only one type of key module 3a to 3n for which no authentication number is registered is produced, and an authentication number for managing installation and execution of software is temporarily written. It is possible to rewrite the authentication number as necessary even after the failure, thereby reducing the production cost of the key modules 3a to 3n, and preventing illegal installation and execution of the software inexpensively and reliably. be able to.
[0048]
In the description of the above embodiment, both software installation and execution are managed, but either software installation or software execution may be used.
[0049]
FIG. 2 is a diagram showing a second embodiment of the software illegal copy prevention system according to the present invention, and this embodiment corresponds to claim 2.
[0050]
FIG. 2 is a system configuration diagram of a main part of the software illegal copy prevention system 10 to which the second embodiment of the software illegal copy prevention system of the present invention is applied.
[0051]
In FIG. 2, the software illegal copy prevention system 10 includes an electronic device main body 11 in which software is installed and executed, and key modules 12 a to 12 n that are set together with the software. The EEPROM control circuit 13 is provided.
[0052]
Each of the key modules 12a to 12n is equipped with EEPROMs 14a to 14n, which are writable non-volatile memories, and has a very simple configuration provided with bit switches 15a to 15n. The EEPROMs 14a to 14n include An authentication number that permits installation and execution of software paired with the key modules 12a to 12n is registered, but this authentication number is not registered when the key modules 12a to 12n are manufactured. All 12n are manufactured as the same hardware configuration, and at a certain time after manufacture, authentication numbers are written in the EEPROMs 14a to 14n by a predetermined electronic device.
[0053]
Each of the key modules 12a to 12n is distributed as one piece with software, and at the stage of distribution, the authentication numbers are already registered in the EEPROMs 14a to 14n of the key modules 12a to 12n. And the same authentication number as the authentication number of the said key module 12a-12n is registered into the software distributed as a pair with each key module 12a-12n.
[0054]
The software paired with each of the key modules 12 a to 12 n is installed in the electronic device main body 11 and is connected to the authentication number registered in the software and the electronic device main body 11 at the time of this installation. Among the key modules 12a to 12n, if the key modules 12a to 12n having the EEPROMs 14a to 14n in which the authentication numbers that match the software authentication numbers are registered are connected, the installation is permitted. Allow execution of software.
[0055]
The electronic device main body 11 includes one connection interface port connected to the EEPROM control circuit 13, and the key modules 12a to 12n are daisy chain connected to the port in a detachable manner. The electronic device main body 11 uses a clock synchronous serial for connection between the connection interface with the key modules 12 a to 12 n and the EEPROM control circuit 13.
[0056]
Each key module 12a to 12n has an address set by the bit switch 15a to 15n, and the EEPROM control circuit 13 uses each key module 12a to 12n based on the address set by the bit switch 15a to 15n. The authentication numbers registered in the EEPROMs 14a to 14n in 12n are read.
[0057]
The electronic device main body 11 reads the authentication numbers registered in the EEPROMs 14a to 14n of the key modules 12a to 12n via the EEPROM control circuit 13 by the software to be installed, and based on the authentication numbers, the software Control permission and disapproval of software installation and execution.
[0058]
Next, the operation of the present embodiment will be described. In the software illegal copy prevention system 10 according to the present embodiment, software is distributed as a pair with the key modules 12a to 12n, an authentication number is embedded in the software, and the software is paired with the software. The key modules 12a to 12n store the same authentication numbers as the authentication numbers registered in the paired software in the EEPROMs 14a to 14n at a predetermined stage after manufacture.
[0059]
When the software is purchased, the key modules 12a to 12n distributed as a pair with the software are connected to the ports for the key modules 12a to 12n of the electronic device main body 11 in which the software is installed or already connected. Are attached to the key modules 12a to 12n. When the software installation operation is performed on the electronic device main body 11 with the key modules 12a to 12n mounted, the software is daisy chain connected to the port via the EEPROM control circuit 13 of the electronic device main body 11. The authentication numbers of the EEPROMs 14a to 14n of the respective key modules 12a to 12n are read, and whether the authentication numbers of the read key modules 12a to 12n match the authentication numbers registered in the software. To check.
[0060]
When the key modules 12a to 12n having an authentication number that matches the authentication number registered in the software are connected to the port, the software executes an installation process on the electronic device main body 11, When the software is installed in the electronic device main body 11 and the key modules 12a to 12n having an authentication number that matches the authentication number registered in the software are not connected to the port, the installation process is rejected. .
[0061]
Further, when the software installed in the electronic device main body 11 is requested to be executed in the electronic device main body 11, the EEPROM 14 a of each key module 12 a to 12 n that is daisy chain connected to the port via the EEPROM control circuit 13. The authentication numbers of ˜14n are read, and it is checked whether the read authentication numbers of the key modules 12a to 12n have an authentication number that matches the authentication number registered in the software.
[0062]
When the key module 12a to 12n having an authentication number that matches the authentication number registered in the software is connected to the port, the software permits the execution of the software, performs an operation process, When the key module 12a-12n registered with the authentication number that matches the authentication number registered in is not connected to the port, the execution is rejected and the operation process is not performed.
[0063]
As described above, in the software illegal copy prevention system 10 according to the present embodiment, the electronic device body 11 is provided with only one interface for connecting the key modules 12a to 12n, and the key modules 12a to 12n are provided with the electronic device body. 11 interfaces and interfaces for daisy chain connection between the key modules 12a to 12n are provided, and key modules 12a to 12n corresponding to the number of software installed in the electronic device main body 11 are sequentially daisy chained. Yes.
[0064]
Therefore, the electronic device main body 11 is provided with only one interface, and the key modules 12a to 12n corresponding to the number of software to be installed are daisy chained, and the necessary key modules 12a to 12n can be used simultaneously. It is possible to prevent illegal installation and execution of software even more inexpensively and reliably.
[0065]
In the description of the above embodiment, both software installation and execution are managed, but either software installation or software execution may be used.
[0066]
FIG. 3 is a diagram showing a third embodiment of the software illegal copy prevention system according to the present invention, and this embodiment corresponds to claim 3.
[0067]
FIG. 3 is a system configuration diagram of a main part of a software illegal copy prevention system 20 to which the third embodiment of the software illegal copy prevention system of the present invention is applied.
[0068]
In FIG. 3, the software illegal copy prevention system 20 includes an electronic device main body 21 in which software is installed and executed, and key modules 22 a to 22 n that are set together with the software. The EEPROM control circuit 23 is provided.
[0069]
Each of the key modules 22a to 22n is equipped with EEPROMs 24a to 24n, which are writable nonvolatile memories, and has an extremely simple configuration provided with addition circuits (adding means) 25a to 25n. EEPROMs 24a to 24n Is registered with an authentication number that permits installation and execution of the software paired with the key module 22a to 22n, but this authentication number is not registered when the key module 22a to 22n is manufactured. The modules 22a to 22n are all manufactured as the same hardware configuration, and at a certain time after manufacture, the authentication numbers are written in the EEPROMs 24a to 24n by a predetermined electronic device.
[0070]
Each key module 22a to 22n is distributed as one piece with software, and at the stage of distribution, the authentication number is already registered in the EEPROM 24a to 24n of the key module 22a to 22n. And the same authentication number as the authentication number of the said key module 22a-22n is registered into the software distributed as a pair with each key module 22a-22n.
[0071]
The software paired with each of the key modules 22a to 22n is installed in the electronic device main body 21. At the time of this installation, the authentication number registered in the software and the electronic device main body 21 are connected. Among the key modules 22a to 22n, if the key modules 22a to 22n having the EEPROMs 24a to 24n in which the authentication numbers that match the software authentication numbers are registered are connected, the installation is permitted. Allow execution of software.
[0072]
The electronic device main body 21 is provided with a port of one connection interface connected to the EEPROM control circuit 23. The key modules 22a to 22n are detachably daisy chain connected to the port, and address assignment is also performed. Signal lines are provided. The electronic device main body 21 uses a clock synchronous serial for connection between the connection interface with the key modules 22 a to 22 n and the EEPROM control circuit 23.
[0073]
Each key module 22a to 22n has an address set by an adder circuit 25a to 25n, and the EEPROM control circuit 23 has an address set by the adder circuit 25a to 25n. The authentication numbers registered in the EEPROMs 24a to 24n in the key modules 22a to 22n are read. That is, the electronic device main body 2 outputs “000b” when the address / assign line has the minimum address, and in FIG. 3, the address is 4 bits (bits) and the address range is 16.
[0074]
When the minimum address “0000b” is output from the electronic device main body 2 to the address assign line, the first-stage key module 12a sets its own address to the minimum address “0000b” input from the electronic device main body 2. The addition circuit 25a adds “1”, which is the minimum address value, to the input address (0000b + 1b = 0001b), and outputs the added address to the subsequent key module 12b.
[0075]
The second-stage key module 12b sets its own address to “0001b” input from the first-stage key module 12a, and adds “1” to the input address by the adder circuit 25b (0001b + 1b = 0010b). Thus, the address after addition is output to the key module 12c in the subsequent stage. Thereafter, the subsequent key modules 12c to 12n sequentially set their own addresses and add and output the addresses to the next stage in order to sequentially set the addresses.
[0076]
Then, the electronic device main body 21 reads the authentication numbers registered in the EEPROMs 24a to 24n of the key modules 22a to 22n based on the addresses via the EEPROM control circuit 23 by the installed software, and the authentication numbers Based on the above, the software controls whether to install or execute the software.
[0077]
Next, the operation of the present embodiment will be described. In the software illegal copy prevention system 20 according to the present embodiment, software is distributed as a pair with the key modules 22a to 22n, an authentication number is embedded in the software, and the software is paired with the software. The key modules 22a-22n store the same authentication numbers as the authentication numbers registered in the paired software in the EEPROMs 24a-24n at a predetermined stage after manufacture.
[0078]
When the software is purchased, the key modules 22a to 22n distributed as a pair with the software are sequentially daisy chained to the ports for the key modules 22a to 22n of the electronic device main body 21 in which the software is installed. Install. When a software installation operation is performed on the electronic device main body 21 in a state where a plurality of key modules 22a to 22n are attached to the port in a daisy chain connection, the software executes the EEPROM control circuit 23 of the electronic device main body 21. The authentication numbers of the EEPROMs 24a to 24n of the key modules 22a to 22n connected to the ports are read based on the addresses set using the adder circuits 25a to 25n. Check whether there is an authentication number that matches the authentication number registered in the software among the authentication numbers of the modules 22a to 22n.
[0079]
When the key modules 22a to 22n having an authentication number that matches the authentication number registered in the software are connected to the port, the software executes an installation process on the electronic device main body 21, When the software is installed in the electronic device main body 21 and the key modules 22a to 22n having an authentication number that matches the authentication number registered in the software are not connected to the port, the installation process is rejected. .
[0080]
Further, when there is a request for execution of software installed in the electronic device main body 21, the EEPROM 24a to 24n of each key module 22a to 22n attached to the port via the EEPROM control circuit 23. Then, it is checked whether there is an authentication number that matches the authentication number registered in the software in the read authentication numbers of the key modules 22a to 22n.
[0081]
When the key modules 22a to 22n having an authentication number that matches the authentication number registered in the software are connected to the port, the software permits the execution of the software, performs an operation process, When the key module 22a-22n registered with the authentication number that matches the authentication number registered in is not connected to the port, the execution is rejected and the operation process is not performed.
[0082]
As described above, the software illegal copy prevention system 20 according to the present embodiment is provided with only one interface for connecting the key modules 22a to 22n to the electronic device main body 21, and a signal line for address assignment is provided on the interface. The key modules 22a to 22n are daisy chain connected to the interface of the electronic device main body 21 and the key modules 22a to 22n, and have an interface including a signal line for address assignment. When an address is input from the address assignment signal line, the address is set as its own address, and the minimum address value is added to the input address, and the next stage through the address assignment signal line. Key modules 22a-22n It is assumed that adder circuits 25a to 25b for output are provided, and key modules 22a to 22n corresponding to the number of software installed in the electronic device main body 21 are sequentially daisy chained, and an address assign signal is sent from the electronic device main body 21. When the minimum address is output through the line, each key module 22a to 22n connected in daisy chain sets the sequentially input address as its own address, and the addition circuit 25a to 25b sets the minimum input address. The address values are added and output to the next key modules 22a to 22n to sequentially set addresses.
[0083]
Therefore, the individual addresses of the key modules 22a to 22n can be automatically set, and it is possible to prevent duplication of addresses due to an address setting error, and a bit switch or the like for manually setting addresses. By omitting the key modules 22a to 22n, the illegal installation and execution of the software can be prevented even more inexpensively and reliably.
[0084]
In the description of the above embodiment, both software installation and execution are managed, but either software installation or software execution may be used.
[0085]
FIG. 4 is a diagram showing a fourth embodiment of the software illegal copy prevention system of the present invention, and this embodiment corresponds to claim 4.
[0086]
FIG. 4 is a system configuration diagram of a main part of a software illegal copy prevention system 30 to which the fourth embodiment of the software illegal copy prevention system of the present invention is applied.
[0087]
In FIG. 4, the software illegal copy prevention system 30 includes an electronic device main body 31 in which software is installed and executed, and key modules 32 a to 32 n that are a set with the software. The EEPROM control circuit 33 is provided.
[0088]
Each of the key modules 32a to 32n is equipped with EEPROMs 34a to 34n, which are writable nonvolatile memories, an adder circuit (adder means) 35a to 35n, an address discriminating circuit (discriminator means) 36a to 36n, and a bus switch. (Switching means) It is an extremely simple configuration provided with 37a to 37n, and an authentication number that permits installation and execution of software paired with the key modules 32a to 32n is registered in the EEPROMs 34a to 34n. This authentication number is not registered at the time of manufacturing the key modules 32a to 32n, but the key modules 32a to 32n are all manufactured as the same hardware configuration, and at a certain point after manufacture, by a predetermined electronic device The authentication number is written in the EEPROMs 34a to 34n.
[0089]
Each key module 32a to 32n is distributed as one piece with software, and at the stage of distribution, the authentication number is already registered in the EEPROM 34a to 34n of the key module 32a to 32n. In the software distributed as a pair with each of the key modules 32a to 32n, the same authentication number as that of the key modules 32a to 32n is registered.
[0090]
The software paired with each of the key modules 32a to 32n is installed in the electronic device main body 31, and at the time of this installation, the authentication number registered in the software and the electronic device main body 31 are connected. Among the key modules 32a to 32n, if the key modules 32a to 32n having the EEPROMs 34a to 34n in which the authentication numbers that match the software authentication numbers are registered are connected, the installation is permitted. Allow execution of software.
[0091]
The electronic device main body 31 has a port of one connection interface connected to the EEPROM control circuit 33. Each key module 32a to 32n is detachably connected to the port in a daisy chain, and the address assignment is performed. Signal lines are provided. The electronic device main body 31 uses a clock synchronous serial for connection between a connection interface with the key modules 32 a to 32 n and the EEPROM control circuit 33.
[0092]
Each of the key modules 32a to 32n is equipped with the EEPROMs 34a to 34n and the addition circuits 35a to 35n, the address determination circuits 36a to 36n, and the bus switches 37a to 37n as described above. 35a to 35n and address discrimination circuits 36a to 36n are connected to the address assignment signal line of the electronic device main body 31, and the bus switches 37a to 37n are connected to the EEPROM control line.
[0093]
An address is set by the adder circuits 35a to 35n, and the EEPROM 34a to 34n in each key module 32a to 32n is based on the address set by the EEPROM control circuit 33 being added by the adder circuits 35a to 35n. Read the authentication number registered in. That is, the electronic device main body 2 outputs “000b” when the address / assign line has the minimum address, and in FIG. 4, the address is 4 bits (bits) and the address range is 16.
[0094]
When the minimum address “0000b” is output from the electronic device main body 2 to the address assign line, the first-stage key module 12a sets its own address to the minimum address “0000b” input from the electronic device main body 2. The addition circuit 25a adds “1”, which is the minimum address value, to the input address (0000b + 1b = 0001b), and outputs the added address to the subsequent key module 12b.
[0095]
The second-stage key module 12b sets its own address to “0001b” input from the first-stage key module 12a, and adds “1” to the input address by the adder circuit 25b (0001b + 1b = 0010b). Thus, the address after addition is output to the key module 12c in the subsequent stage. Thereafter, the subsequent key modules 12c to 12n sequentially set their own addresses and add and output the addresses to the next stage in order to sequentially set the addresses.
[0096]
The bus switches 37a to 37n are opened / closed by the address discriminating circuits 36a to 36n, and connect / disconnect the EEPROM control lines to / from the EEPROMs 34a to 34n of the key modules 32a to 32n in the subsequent stage.
[0097]
In the address discrimination circuits 36a to 36n, whether all bits (bits) of the input address are “1”, that is, if the address is 4 bits now, is the input address “1111b” of the maximum address? When all the bits of the input address are “1”, that is, when the input address is the maximum address, the bus switches 37a to 37n are opened, and the EEPROMs for the EEPROMs 34a to 34n of the subsequent key modules 32a to 32n When the connection of the control line is cut off and one or more bits are included in the input address, that is, when the input address is not the maximum address, the bus switches 37a to 37n are closed and the subsequent stage is followed. EEPROM control lines for EEPROM 34a-34n of key modules 32a-32n To ensure the connection. That is, the adder circuits 35a to 35n output the value obtained by adding “1” to the input address as the next stage address, but the adder circuits 35a to 35n outputs “1” to the address having all bits “1”. When added and output as the address of the next stage, the address becomes an address having all bits “0”, and the address of all bits “0” is the key module 32a of the first stage as described above. Result in duplicate addresses. Therefore, when all the bits are “1”, the address determination circuits 36a to 36n open the bus switches 37a to 37n and cut off the connection of the EEPROM control lines to the EEPROMs 34a to 34n of the key modules 32a to 32n in the subsequent stage. This prevents address duplication.
[0098]
Then, the electronic device main body 31 reads the authentication number registered in the EEPROM 34a to 34n of each key module 32a to 32n based on the address via the EEPROM control circuit 33 by the installed software, and the authentication number Based on the above, the software controls whether to install or execute the software.
[0099]
Next, the operation of the present embodiment will be described. In the software illegal copy prevention system 30 according to the present embodiment, software is distributed as a pair with the key modules 32a to 32n, an authentication number is embedded in the software, and the software is paired with the software. The key modules 32a to 32n store the same authentication numbers as the authentication numbers registered in the paired software in the EEPROMs 34a to 34n at a predetermined stage after manufacture.
[0100]
When the software is purchased, the key modules 32a to 32n distributed as a pair with the software are sequentially daisy chained to the ports for the key modules 32a to 32n of the electronic device main body 31 in which the software is installed. Install. When a software installation operation is performed on the electronic device main body 31 in a state where a plurality of key modules 32a to 32n are attached to the port in a daisy chain connection, the software causes the EEPROM control circuit 33 of the electronic device main body 31 to operate. Via the addresses set using the adder circuits 35a to 35n, the authentication numbers of the EEPROMs 34a to 34n of the key modules 32a to 32n connected to the ports are read and the read keys Check whether there is an authentication number that matches the authentication number registered in the software among the authentication numbers of the modules 32a to 32n.
[0101]
When the key module 32a to 32n having an authentication number that matches the authentication number registered in the software is connected to the port, the software executes an installation process on the electronic device main body 31, The software is installed in the electronic device main body 31, and the installation process is rejected when the key modules 32a to 32n registered with the authentication number that matches the authentication number registered in the software are not connected to the port. .
[0102]
Further, when there is a request for execution of the software installed in the electronic device main body 31, the EEPROM 34a to 34n of each key module 32a to 32n attached to the port via the EEPROM control circuit 33. Then, it is checked whether there is an authentication number that matches the authentication number registered in the software in the authentication numbers of the read key modules 32a to 32n.
[0103]
When the key module 32a to 32n having an authentication number that matches the authentication number registered in the software is connected to the port, the software permits the execution of the software, performs an operation process, When the key module 32a to 32n registered with the authentication number that matches the authentication number registered in is not connected to the port, the execution is refused and the operation process is not performed.
[0104]
When each key module 32a to 32n has an address set on the address assign line of the electronic device main body 31, its own address setting and the subsequent stage address addition setting by the adder circuits 35a to 35n as described above. The address discriminating circuits 36a to 36n discriminate whether or not the input address is all bits “1”. If any bit of the input address has “0”, the bus switches 37a to 37n are closed. Then, the EEPROM control line is connected to the next key module 32a to 32n, and when all the bits of the input address are "1", the bus switches 37a to 37n are opened and the next key key of the EEPROM control line is opened. The connection to the modules 32a to 32n is cut off.
[0105]
Therefore, it is possible to prevent duplication of addresses of the key modules 32a to 32n, and appropriately and accurately read the authentication numbers of the EEPROMs 34a to 34n of the key modules 32a to 32n, thereby making the management of the software more appropriate and accurate. Can be done.
[0106]
As described above, the software illegal copy prevention system 30 according to the present embodiment includes the address determination circuits 36a to 36n for determining whether or not each set of the key modules 32a to 32n is the maximum address. Bus switches 37a to 37n for connecting / disconnecting the key modules 32a to 32n in the next stage of the daisy chain connection interface, and the address determination circuits 36a to 36n have their own addresses as the maximum addresses. If it is discriminated, the connection with the key modules 32a to 32n at the next stage by the bus switches 37a to 37n is cut off.
[0107]
Therefore, it is possible to automatically and reliably prevent an address from being duplicated by setting an address that has already been set after the address reaches the maximum. Execution can be prevented.
[0108]
In the description of the above embodiment, both software installation and execution are managed, but either software installation or software execution may be used.
[0109]
FIG. 5 is a diagram showing a fifth embodiment of the software illegal copy prevention system according to the present invention, and this embodiment corresponds to claim 5.
[0110]
FIG. 5 is a system perspective view of a main part of a software illegal copy prevention system 40 to which the fifth embodiment of the software illegal copy prevention system of the present invention is applied.
[0111]
In FIG. 5, the software illegal copy prevention system 40 includes an electronic device main body 41 in which software is installed and executed, and key modules 42 a to 42 n that are set together with the software. Is provided with an EEPROM control circuit (not shown).
[0112]
A guide rail (fitting receiving portion) 43 for detachably attaching the first-stage key module 42a is disposed on the side surface of the electronic device main body 41. The guide rail 43 has a top open core. It is formed in a letter shape.
[0113]
A plurality of spring-type spring terminals (connection terminals) 44 for electrical connection with the key module 42 a mounted on the guide rail 43 are provided on the inner side of the guide rail 43 on the side surface of the electronic device main body 41. It has been.
[0114]
The key modules 42a to 42n are formed in a substantially rectangular parallelepiped, and guide grooves (fitting portions) 45a to 45n are formed on both side surfaces in the longitudinal direction, respectively, on one side surface in the short direction, Guide rails (fitting receiving portions) 46a to 46b for detachably mounting the next-stage key modules 42b to 42n are formed. The guide rails 46a to 46n are formed in a U-shape having an open top, and key modules 42b to 42n attached to the guide rails 46a to 46n are formed on inner portions of the guide rails 46a to 46n. A plurality of spring-type spring terminals (connection terminals) 47a to 47n that perform electrical connection are provided.
[0115]
The key modules 42a to 42n have spring terminals formed in the electronic device main body 41 on the surface opposite to the surface on which the guide rails 46a to 46n are formed in the short direction. 44 or metal terminals (connection terminals) that are in contact with the spring terminals 47a to 47n-1 formed in the preceding key modules 42a to 42n-1.
[0116]
The key modules 42a to 42n have the structure described in any of the first to fourth embodiments.
[0117]
Next, the operation of the present embodiment will be described. In the software illegal copy prevention system 40 according to the present embodiment, software is distributed as a pair with the key modules 42a to 42n, the authentication number is embedded in the software, and the software is paired with the software. The key modules 42a to 42n store the same authentication numbers as the authentication numbers registered in the paired software in the EEPROM at a predetermined stage after manufacture.
[0118]
When the software is purchased, the key modules 42a to 42n distributed as a pair with the software are replaced with the guide rails 43 for the key modules 42a to 42n of the electronic device main body 41 in which the software is installed, or When the key modules 42a to 42n are already mounted, they are mounted on the guide rails 46a to 46n of the key modules 42a to 42n. At this time, the guide rails 43 for the key modules 42a to 42n of the electronic device main body 41 or the key modules 42a to 42n are already mounted in the guide grooves 45a to 45n of the key modules 42a to 42n to be newly mounted. When a new key module 42a to 42n is inserted, the guide rails 46a to 46n of the key modules 42a to 42n are inserted.
[0119]
For example, as shown by an arrow in FIG. 5, the first-stage key module 42a is mounted so that the guide rail 43 of the electronic device main body 41 enters the guide groove 45a, and the second-stage key module 42a is inserted. 42b is mounted so that the guide rail 46a of the first-stage key module 42a enters the guide groove 45b.
[0120]
When the key modules 42a to 42n are installed in the guide rails 43 for the key modules 42a to 42n of the electronic device main body 41 in which the software is installed or the key modules 42a to 42n are already mounted, -When mounted on the guide rails 46a to 46n of the modules 42a to 42n, the spring terminals 44 of the electronic device main body 41 or the spring terminals 47a to 47n-1 of the already installed key modules 42a to 42n-1 are newly added. The metal terminals of the key modules 42a to 42n to be attached come into contact with each other, and the EEPROM authentication numbers of the key modules 32a to 32n can be read from the electronic device main body 41.
[0121]
As described above, the software illegal copy prevention system 40 according to the present embodiment forms the guide rails 43 as fitting receiving portions that are detachably fitted to the key modules 42 a to 42 n in the electronic device main body 41. Guide grooves 45a to 45n are formed in the key modules 42a to 42n as fitting portions to be fitted to the guide rails 43 of the electronic device main body 41, and the guide grooves 45a to 45n of the key modules 42a to 42n in the next stage are formed. Guide rails 46a to 46n are formed as fitting receiving portions to which 45n is detachably fitted, and the electronic device main body 41 and the key modules 42a to 42n are connected to the guide rails 43 and 46a to 46n. Spring terminals 4 that are connected to each other by a daisy chain interface when the guide grooves 45a to 45n are fitted. To form a a~47n and metal terminal.
[0122]
Therefore, the electronic device main body 41 and the key modules 42a to 42n and the key modules 42a to 42n can be fitted and connected to each other without using a cable or the like, so that the software illegal copy prevention system 40 as a whole has a necessary installation space. In addition to being able to reduce the cost of cables and the like, it is small in size, and can prevent illegal installation and execution of software reliably and more reliably.
[0123]
In the description of the above embodiment, both software installation and execution are managed, but either software installation or software execution may be used.
[0124]
The invention made by the present inventor has been specifically described based on the preferred embodiments. However, the present invention is not limited to the above, and various modifications can be made without departing from the scope of the invention. Needless to say.
[0125]
【The invention's effect】
According to the software illegal copy prevention system of the first aspect of the invention, when software is installed in an electronic device and / or execution / permission of execution of software already installed in the electronic device is permitted, , Registering identification information for identifying the software in advance, providing an interface for connecting a key module distributed as a pair with the software to the electronic device, providing a rewritable nonvolatile memory in the key module, At a predetermined stage after the manufacture of the key module, identification information that permits installation or / and execution of the software with the identification information of the paired software is written in the nonvolatile memory, and the software Written to the module's non-volatile memory Since installation or / and execution is permitted only when the other information is identification information paired with its own identification information, in the key module manufacturing process, only one type of key module with no identification information registered is used. The ID module can be rewritten as necessary even after the identification information for managing the installation and execution of software is temporarily written, thereby reducing the key module production cost. It is possible to prevent illegal installation or / and execution of software inexpensively and reliably.
[0126]
According to the software illegal copy prevention system of the second aspect, the electronic device is provided with only one interface for connecting the key module, and the key module is connected to the interface of the electronic device and each key module. The number of software to be installed is only one interface for the electronic device because the number of key modules that are installed in the electronic device is sequentially daisy chained. Only the key modules can be daisy chained to use the necessary key modules at the same time, and the illegal installation or / and execution of the software can be prevented even more inexpensively and reliably.
[0127]
According to the software illegal copy prevention system of the invention described in claim 3, the electronic apparatus is provided with only one interface for connecting the key module, and the interface is provided with a signal line for address assignment. In addition to daisy chain connection between the interface of the electronic device and each key module, an interface including an address assignment signal line is provided, and an address is input from the address assignment signal line. And an adder that sets the address as its own address and adds the minimum address value to the input address and outputs it to the next key module through the address assignment signal line. Software installed on electronic devices As many key modules as the number of keys are daisy-chained sequentially, and the minimum address is output from the electronic device through the address assignment signal line, each daisy-chained key module is sequentially input. Address is set as its own address, and the minimum address value is added to the input address by the adder and output to the next key module to set the address sequentially, so the key module's individual address is automatically set It is possible to prevent duplication of addresses due to address setting mistakes, and to reduce the size of the key module by omitting bit switches etc. for manually setting the address, thereby further reducing the cost. Ensure that illegal installation or / and execution of software is prevented It can be.
[0128]
According to the software illegal copy protection system of the invention described in claim 4, each key module has a determination means for determining whether or not the set self address is the maximum address, and the next stage of the daisy chain connection interface. Switch means for connecting / disconnecting to / from the key module, and when the determining means determines that its own address is the maximum address, the switch means connects to the next key module. Can be automatically and reliably prevented from duplicating addresses by setting an address that has already been set after the address reaches the maximum, making software illegal even more inexpensively and reliably. Installation or / and execution can be prevented.
[0129]
According to the software illegal copy prevention system of the fifth aspect of the present invention, the electronic device is provided with a fitting receiving portion that is detachably fitted to the key module, and each key module has a fitting receiving portion for the electronic device. The electronic device and each key module are formed with a fitting receiving portion into which the fitting portion of the next key module is detachably fitted. However, when the fitting receiving portion and the fitting portion are fitted together, a connection terminal is formed that is connected to each other via the daisy chain interface, so that the electronic device, the key module, and the key can be used without using a cable or the like. -Modules can be fitted and connected to reduce the required installation space for the entire system, and the cost of cables, etc. can be reduced. It can be prevented inexpensively and reliably illegal installation and / or execution of software.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram of a main part of a software illegal copy prevention system to which a first embodiment of a software illegal copy prevention system of the present invention is applied.
FIG. 2 is a system configuration diagram of a main part of a software illegal copy prevention system to which a second embodiment of the software illegal copy prevention system of the present invention is applied.
FIG. 3 is a system configuration diagram of a main part of a software illegal copy prevention system to which a third embodiment of the software illegal copy prevention system of the present invention is applied;
FIG. 4 is a system configuration diagram of a main part of a software illegal copy prevention system to which a fourth embodiment of the software illegal copy prevention system of the present invention is applied.
FIG. 5 is a system perspective view of a principal part of a software illegal copy prevention system to which a fifth embodiment of the software illegal copy prevention system of the present invention is applied;
[Explanation of symbols]
1 Software illegal copy prevention system
2 Electronic equipment
3a-3n key module
4 EEPROM control circuit
5a-5n EEPROM
10 Software illegal copy prevention system
11 Electronic equipment
12a-12n key module
13 EEPROM control circuit
14a-14n EEPROM
15a-15n bit switch
20 Software illegal copy prevention system
21 Electronic equipment
22a-22n Key module
23 EEPROM control circuit
24a-24n EEPROM
25a to 25n adder circuit
30 Software illegal copy prevention system
31 Electronic equipment
32a to 32n key module
33 EEPROM control circuit
34a-34n EEPROM
35a-35n adder circuit
36a to 36n Address discrimination circuit
37a-37n Bus switch
40 Software illegal copy prevention system
41 Electronic equipment
42a-42n key module
43 Guide rail
44 Spring terminal
45a-45n guide groove
46a-46b Guide rail
47a-47n Spring terminal

Claims (5)

In a software illegal copy prevention system that permits software installation to an electronic device and / or execution / non-permission of execution of software already installed in the electronic device, the software has identification information for identifying the software in advance. The electronic device has an interface for connecting a key module distributed as a pair with the software, the key module has a rewritable nonvolatile memory, and is manufactured after the key module is manufactured. In the predetermined step, identification information for permitting installation or / and execution of the software is written between the identification information of the paired software, and the software is installed in / and / and executed when the key module Non-volatile memo Software piracy prevention system being written identification information and permits the installation and / or performed only when identification information which is a self-identity and pair. The software illegal copy protection system includes only one interface for connecting the key module to the electronic device, and the key module is daisy chain connected between the interface of the electronic device and each key module. 2. The software illegal copy prevention system according to claim 1, wherein the key modules corresponding to the number of software installed in the electronic device are sequentially daisy-chain connected. The software illegal copy protection system includes only one interface for connecting the key module to the electronic device, the interface has a signal line for address assignment, and the key module is connected to the electronic device. A daisy chain connection is made between the interface and each key module, and an interface including the address assignment signal line is provided. Each key module receives an address from the address assignment signal line. And adding means for setting the address as its own address, adding a minimum address value to the input address and outputting the address to the next key module through the address assignment signal line, Installed on electronic equipment As many key modules as the number of software are sequentially daisy chained, and when the minimum address is output from the electronic device through the address assignment signal line, each daisy chained key module is A sequential input address is set as its own address, and a minimum address value is added to the input address by the adding means and output to the key module in the next stage for sequential address setting. Item 1. The software illegal copy prevention system according to item 1. Each key module performs connection / disconnection between the determination means for determining whether the set self address is the maximum address and the key module at the next stage of the daisy chain connection interface. 4. The switch means according to claim 3, wherein when the self-address is determined to be the maximum address, the determining means cuts off the connection with the next key module by the switch means. Software illegal copy prevention system described. The electronic device has a fitting receiving portion that is detachably fitted to the key module, and each key module has a fitting portion that fits to the fitting receiving portion of the electronic device. And a fitting receiving portion in which the fitting portion of the key module of the next stage is detachably fitted is formed, and the electronic device and each key module are connected to the fitting receiving portion and the fitting. 5. The software illegal copy prevention system according to claim 2, wherein connection terminals are formed to be connected to each other by the daisy chain connection interface when mating portions are fitted.

Images